CN217689039U - Height adjusting device for soft package battery probe module - Google Patents

Abstract

The utility model discloses a laminate polymer battery probe module height adjusting device, the on-line screen storage device comprises a base, anodal probe module, negative pole probe module and be used for the adjusting part of height-adjusting position, the adjusting part is including setting up the slide bar in the base left and right sides, two-way lead screws that are parallel with the slide bar and the adjustment controller of control two-way lead screw rotation, the upper end of slide bar is equipped with the fixed block, two-way lead screw's upper end and lower extreme rotate with fixed block and base respectively and be connected, two-way lead screw's upper end is connected through the hold-in range, anodal probe module and negative pole probe module's both ends can be slided from top to bottom and install on the slide bar, anodal probe module's both ends are screwed with two-way lead screw through first nut and are connected, the both ends of negative pole probe module are screwed with two-way lead screw through the second nut and are connected, anodal probe module sets up in negative pole probe module's top or below; the position of the probe can be adjusted according to the position of the battery tab, and the probe can be rapidly replaced.

Description

Height adjusting device for soft package battery probe module

Technical Field

The utility model belongs to the technical field of the battery manufacturing technique and specifically relates to indicate a laminate polymer battery probe module height adjusting device.

Background

With the vigorous development of the new energy battery industry, the specifications of batteries are also diversified, and the soft package battery has the characteristics of good safety performance, large capacity, small internal resistance, flexible design and the like, so that the sizes of a plurality of soft package batteries are different, and the interchangeability is poor. Production equipment and production jigs need to be replaced in the production process, some battery manufacturers upgrade the capacity of equipment in order to improve the formation and capacity production efficiency of the batteries, and the compatibility of various batteries is provided for the formation and capacity equipment, so that higher requirements are provided for the convenience of equipment maintenance and repair. In the formation and capacity grading production process, a plastic tray is usually adopted as a carrier, the battery is placed in the plastic tray, and the whole tray of the battery is formed and subjected to capacity grading, so that the production efficiency is improved. The common plastic trays arrange the cells in two rows. Batteries with different specifications are loaded by the same tray, the sizes of the batteries are different, and the center distances of the battery lugs are different. The commonly used detection equipment also uses a probe to clamp the battery tab for detection according to the arrangement of the battery, but the probe cannot be adjusted according to the size of the battery and the center distance of the tab.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides a laminate polymer battery probe module height adjusting device, and it can adjust the probe position according to the position of battery utmost point ear to can realize the quick replacement of probe.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a laminate polymer battery probe module height adjusting device, is including base, anodal probe module, negative pole probe module and be used for adjusting anodal probe module and negative pole probe module high position's adjustment assembly, adjustment assembly is including setting up slide bar, two setting at the vertical extension of the base left and right sides at the two-way lead screw of the base left and right sides and control two-way lead screw pivoted adjustment controller, two-way lead screw and slide bar parallel arrangement, the upper end of slide bar is equipped with the fixed block, the upper end and the lower extreme of two-way lead screw rotate with fixed block and base respectively and be connected, two the upper end of two-way lead screw is passed through the hold-in range and is connected, gliding installation on the slide bar from top to bottom can be in the both ends of anodal probe module and negative pole probe module, the both ends of anodal probe module spiral shell are closed through first nut and are connected with two-way lead screw, the both ends of negative pole probe module are closed through second nut and are connected with two-way lead screw, anodal probe module sets up in the top or the below of negative pole probe module.

As a preferred scheme, the fixing block is provided with a through hole corresponding to the bidirectional screw rod, the upper end of the bidirectional screw rod penetrates through the through hole and is connected with the adjusting controller, and the adjusting controller is an adjusting hand wheel.

As a preferred scheme, a screw hole is formed in the fixing block, the inner side of the screw hole is communicated with the through hole, a locking screw rod used for fixing the bidirectional screw rod is arranged in the screw hole, and a handle is arranged on the locking screw rod.

As a preferred scheme, anodal probe module includes anodal mount pad, a plurality of anodal centre gripping subassembly that sets up side by side on anodal mount pad, sets up anodal probe in anodal centre gripping subassembly, is used for making anodal centre gripping subassembly open the positive pole of pressing from both sides and open the double-layered ejector pad, anodal division presss from both sides the ejector pad setting in the rear of anodal centre gripping subassembly, and is a plurality of anodal division presss from both sides the ejector pad and installs side by side in anodal push pedal, negative pole probe module includes negative pole mount pad, a plurality of negative pole centre gripping subassembly that sets up side by side on the negative pole mount pad, sets up negative pole probe in negative pole centre gripping subassembly, is used for making negative pole centre gripping subassembly open the double-layered ejector pad, negative pole division clamp ejector pad sets up the rear at negative pole centre gripping subassembly, and a plurality of negative pole division clamp ejector pad is installed side by side in the negative pole push pedal, be equipped with the drive assembly of activity around drive anodal push pedal and the negative pole push pedal on the base, first nut sets up the left and right sides at anodal mount pad, the second nut sets up the left and right sides at the negative pole mount pad.

As a preferred scheme, anodal mount pad is equipped with the anodal slide rail that extends from beginning to end, anodal push pedal passes through anodal slider and installs on anodal slide rail, the negative pole mount pad is equipped with the negative pole slide rail that extends from beginning to end, the negative pole push pedal passes through the negative pole slider and installs on the negative pole slide rail.

As a preferred scheme, the driving assembly comprises a vertically arranged push rod and a driving cylinder which drives the push rod to move back and forth, an output shaft of the driving cylinder is connected with the middle section of the push rod, and the upper end and the lower end of the push rod are fixedly connected with the positive electrode push plate and the negative electrode push plate respectively.

As a preferred scheme, the push rods are two, each push rod is provided with a driving cylinder corresponding to the push rod, and the two push rods are arranged at the left end and the right end of the anode push plate and the cathode push plate respectively.

As a preferred scheme, the positive mounting seat and the negative mounting seat are both provided with an avoiding through groove corresponding to the push rod.

As a preferred scheme, the positive pole mount pad and the negative pole mount pad are connected with the slide bar through sleeves in a sliding mode.

As an optimal scheme, be equipped with the anodal fixed plate that is used for fixed anodal centre gripping subassembly on the anodal probe module, anodal probe module centre gripping is between base and anodal fixed plate, every anodal centre gripping subassembly all fixes respectively in the below of anodal fixed plate through the bolt, be equipped with the negative pole fixed plate that is used for fixed negative pole centre gripping subassembly on the negative pole probe module, negative pole probe module centre gripping is between base and negative pole fixed plate, every the below at the negative pole fixed plate is all fixed respectively through the bolt to the negative pole centre gripping subassembly.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, concretely speaking, according to the technical scheme, the height positions of the positive probe module and the negative probe module can be adjusted in a centrosymmetric manner through the adjustment controller by connecting the two ends of the positive probe module and the negative probe module with the two-way screw rod in the vertical direction through nuts, so that the probe positions can be adjusted conveniently and quickly, and the adjustment efficiency is improved; simultaneously, with single anodal centre gripping subassembly and negative pole centre gripping subassembly through the screw lock solid that corresponds on the fixed plate, when changing the probe, only need loosen the bolt that corresponds of anodal centre gripping subassembly or the negative pole centre gripping subassembly that needs to be changed, can change the probe, change swiftly, convenient.

To illustrate the structural features and functions of the present invention more clearly, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic view of an assembly structure according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an adjustment assembly according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a positive electrode probe module according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a negative probe module according to an embodiment of the present invention.

The attached drawings indicate the following:

10. a base;

20. a positive electrode probe module; 21. a first nut; 22. a positive mounting base; 23. a positive clamping assembly; 24. the positive electrode is provided with a clamping push block; 25. a positive electrode push plate; 26. a positive slide rail; 27. a positive electrode slider; 28. a positive electrode fixing plate;

30. a negative probe module; 31. a second nut; 32. a negative electrode mounting base; 33. a negative clamping assembly; 34. a negative electrode clamping push block is opened; 35. a negative electrode push plate; 36. a negative slide rail; 37. a negative pole slider; 38. a negative electrode fixing plate;

40. an adjustment assembly; 41. a slide bar; 42. a bidirectional screw rod; 43. a fixed block; 44. a synchronous belt; 45. adjusting a hand wheel; 46. locking the screw rod; 461. a handle;

50. a drive assembly; 51. a push rod; 52. a driving cylinder;

60. avoiding the through groove; 61. a sleeve.

Detailed Description

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the indicated position or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as appropriate by those of ordinary skill in the art.

Referring to fig. 1 to 4, a specific structure of an embodiment of the present invention is shown, which includes a base 10, an anode probe module 20, a cathode probe module 30, and an adjusting assembly 40 for adjusting height positions of the anode probe module 20 and the cathode probe module 30, where the adjusting assembly 40 includes a sliding rod 41 vertically extending on left and right sides of the base 10, two bidirectional screws 42 disposed on left and right sides of the base 10, and an adjusting controller for controlling rotation of the bidirectional screws 42, the bidirectional screws 42 are disposed in parallel with the sliding rod 41, a fixing block 43 is disposed on an upper end of the sliding rod 41, an upper end and a lower end of the bidirectional screws 42 are respectively rotatably connected with the fixing block 43 and the base 10, upper ends of the two bidirectional screws 42 are connected through a synchronous belt 44, two ends of the anode probe module 20 and the cathode probe module 30 are slidably mounted on the sliding rod 41 up and down, two ends of the anode probe module 20 are connected with the bidirectional screws 42 through a first nut 21, two ends of the cathode probe 30 are connected with the bidirectional screws 42 through a second nut 31, and the anode probe module 20 is screwed on top of the cathode probe module or on the bottom of the cathode probe module 30.

In this embodiment, the positive electrode probe module 20 is disposed above the negative electrode probe module 30, the fixing block 43 is provided with a through hole corresponding to the two-way screw rod 42, the upper end of the two-way screw rod 42 passes through the through hole and is connected to the adjustment controller, the adjustment controller may be a motor or an adjustment hand wheel 45, and the adjustment controller is the adjustment hand wheel 45 in this embodiment. The fixing block 43 is provided with a screw hole, the inner side of the screw hole is communicated with the through hole, a locking screw 46 for fixing the bidirectional screw rod 42 is arranged in the screw hole, and a handle 461 is arranged on the locking screw.

Anodal probe module 20 includes anodal mount pad 22, a plurality of anodal centre gripping subassembly 23 that sets up side by side on anodal mount pad 22, sets up anodal probe in anodal centre gripping subassembly 23, is used for making anodal centre gripping subassembly 23 open the anodal ejector pad 24 that presss from both sides, anodal opening presss from both sides ejector pad 24 and sets up at anodal centre gripping subassembly 23's rear, and is a plurality of anodal centre gripping ejector pad 24 is installed side by side on anodal push pedal 25, negative pole probe module 30 includes negative pole mount pad 32, a plurality of negative pole centre gripping subassembly 33 that sets up side by side on negative pole mount pad 32, sets up the negative pole probe in negative pole centre gripping subassembly 33, is used for making negative pole centre gripping subassembly 33 open the negative pole of pressing from both sides and presss from both sides ejector pad 34, negative pole open the ejector pad 34 and sets up at the rear of negative pole centre gripping subassembly 33, and is a plurality of negative pole open the ejector pad 34 and install side by side on negative pole push pedal 35, be equipped with the drive assembly push pedal 50 of the activity around drive anodal push pedal 25 and negative pole centre gripping subassembly 35 on base 10, first nut 21 sets up in the left and right sides of anodal mount pad 22, the second nut sets up the left and right sides at negative pole mount pad 32. The positive pole mount pad 22 is equipped with the anodal slide rail 26 that extends from beginning to end, anodal push pedal 25 is installed on anodal slide rail 26 through anodal slider 27, negative pole mount pad 32 is equipped with the negative pole slide rail 36 that extends from beginning to end, negative pole push pedal 35 is installed on negative pole slide rail 36 through negative pole slider 37. The driving assembly 50 comprises a push rod 51 and a driving cylinder 52, the push rod 51 is vertically arranged, the driving cylinder 52 drives the push rod 51 to move back and forth, an output shaft of the driving cylinder 52 is connected with the middle section of the push rod 51, and the upper end and the lower end of the push rod 51 are respectively fixedly connected with the positive electrode push plate 25 and the negative electrode push plate 35. The number of the push rods 51 is two, each push rod 51 is provided with a driving cylinder 52 corresponding to the push rod 51, and the two push rods 51 are respectively arranged at the left end and the right end of the anode push plate 25 and the cathode push plate 35. The positive mounting seat 22 and the negative mounting seat 32 are both provided with an avoiding through groove 60 corresponding to the push rod 51. The positive mounting seat 22 and the negative mounting seat 32 are both connected with the sliding rod 41 in a sliding manner through a sleeve 61. Be equipped with the anodal fixed plate 28 that is used for fixed anodal centre gripping subassembly 23 on anodal probe module 20, anodal probe module 20 centre gripping is between base 10 and anodal fixed plate 28, every anodal centre gripping subassembly 23 all fixes respectively in the below of anodal fixed plate 28 through the bolt, be equipped with the negative pole fixed plate 38 that is used for fixed negative pole centre gripping subassembly 33 on the negative pole probe module 30, the centre gripping of negative pole probe module 30 is between base 10 and negative pole fixed plate 38, every negative pole centre gripping subassembly 33 all fixes respectively in the below of negative pole fixed plate 38 through the bolt.

When adjusting anodal and negative pole probe position, be in initial condition with anodal probe module and negative pole probe module earlier, the outage, rotate the handle and loosen locking screw, rotate the hand wheel and begin to adjust, it is rotatory to drive left and right sides two-way lead screw through adjusting the hand wheel, and two-way lead screw drives anodal probe module and negative pole probe module simultaneously and reciprocates with central symmetry's mode, make anodal and negative pole probe aim at the test battery utmost point ear, lock locking screw at last and make the position of anodal probe module and negative pole probe module fixed.

When changing the probe, be in initial condition with positive pole probe module and negative pole probe module earlier, the outage of breathing out loosens the bolt that needs to change the centre gripping subassembly on the fixed plate and corresponds, takes out the probe from the below, then installs new probe on original position, and last locking bolt can.

To sum up, the utility model can adjust the height positions of the positive probe module and the negative probe module in a centrosymmetric manner by the adjusting controller by connecting the two ends of the positive probe module and the negative probe module with the two-way screw rod through the nuts, thereby realizing the adjustment of the probe positions, being convenient and rapid to adjust and improving the adjustment efficiency; simultaneously, with solitary anodal clamping components and negative pole clamping components through the screw lock solid that corresponds on the fixed plate, when changing the probe, only need to loosen the bolt that corresponds of anodal clamping components or the negative pole clamping components that need to be changed, can change the probe, change swift, convenient.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (10)

1. The utility model provides a laminate polymer battery probe module height adjusting device which characterized in that: including base, anodal probe module, negative pole probe module and be used for adjusting anodal probe module and negative pole probe module high position's adjustment assembly, adjustment assembly is including setting up slide bar, two setting at the vertical extension of the base left and right sides two-way lead screw and the two-way lead screw pivoted regulation controller of control in the base left and right sides, two-way lead screw and slide bar parallel arrangement, the upper end of slide bar is equipped with the fixed block, the upper end and the lower extreme of two-way lead screw rotate with fixed block and base respectively and are connected, two the upper end of two-way lead screw is passed through the hold-in range and is connected, the both ends slidable is installed on the slide bar from top to bottom of anodal probe module and negative pole probe module, the both ends of anodal probe module are closed through first nut and two-way lead screw spiral shell and are connected, the both ends of negative pole probe module are closed through the second nut and are connected with two-way lead screw, anodal probe module sets up top or below at negative pole probe module.

2. The pouch battery probe module height adjusting device of claim 1, characterized in that: the adjusting mechanism is characterized in that through holes corresponding to the bidirectional screw rods are formed in the fixing blocks, the upper ends of the bidirectional screw rods penetrate through the through holes and are connected with the adjusting controller, and the adjusting controller is an adjusting hand wheel.

3. The pouch battery probe module height adjusting device of claim 2, characterized in that: the fixing block is provided with a screw hole, the inner side of the screw hole is communicated with the through hole, a locking screw rod used for fixing the bidirectional screw rod is arranged in the screw hole, and a handle is arranged on the locking screw rod.

4. The pouch battery probe module height adjusting device of claim 1, characterized in that: anodal probe module includes anodal mount pad, a plurality of anodal centre gripping subassembly that sets up side by side on anodal mount pad, sets up anodal probe in anodal centre gripping subassembly, is used for making anodal centre gripping subassembly open the positive pole of pressing from both sides and open and press from both sides the ejector pad, anodal open press from both sides the ejector pad setting and is in the rear of anodal centre gripping subassembly, it is a plurality of anodal open press from both sides the ejector pad and install side by side in anodal push pedal to open the negative pole, negative probe module includes negative pole mount pad, a plurality of negative pole centre gripping subassembly that sets up side by side on the negative pole mount pad, sets up negative pole probe in negative pole centre gripping subassembly, is used for making negative pole centre gripping subassembly open the negative pole of pressing from both sides the ejector pad, the negative pole is opened and is pressed from both sides the ejector pad and is set up at negative pole centre gripping subassembly's rear, and a plurality of negative pole open and press from both sides the ejector pad and install side by side on the negative pole push pedal, be equipped with the drive assembly of drive positive pole push pedal fore-and-off, first nut sets up the left and right sides at anodal mount pad, the second nut sets up the left and right sides at the negative pole mount pad.

5. The pouch battery probe module height adjusting device of claim 4, characterized in that: anodal mount pad is equipped with the anodal slide rail that extends around, anodal push pedal passes through anodal slider and installs on anodal slide rail, the negative pole slide rail that extends around the negative pole mount pad is equipped with, the negative pole push pedal passes through the negative pole slider and installs on the negative pole slide rail.

6. The pouch battery probe module height adjusting device of claim 5, characterized in that: the driving assembly comprises a vertically arranged push rod and a driving cylinder which drives the push rod to move front and back, an output shaft of the driving cylinder is connected with the middle section of the push rod, and the upper end and the lower end of the push rod are fixedly connected with a positive electrode push plate and a negative electrode push plate respectively.

7. The pouch battery probe module height adjusting device of claim 6, characterized in that: the push rods are two, each push rod is provided with a driving cylinder corresponding to the push rod, and the two push rods are arranged at the left end and the right end of the anode push plate and the cathode push plate respectively.

8. The pouch battery probe module height adjusting device of claim 7, characterized in that: anodal mount pad and negative pole mount pad all are equipped with dodge logical groove that corresponds with the push rod.

9. The pouch battery probe module height adjusting device of claim 4, characterized in that: the positive mounting seat and the negative mounting seat are both connected with the sliding rod in a sliding mode through sleeves.

10. The pouch battery probe module height adjusting device of claim 4, characterized in that: be equipped with the anodal fixed plate that is used for fixed anodal centre gripping subassembly on the anodal probe module, anodal probe module centre gripping is between base and anodal fixed plate, every anodal centre gripping subassembly all fixes the below at anodal fixed plate respectively through the bolt, be equipped with the negative pole fixed plate that is used for fixed negative pole centre gripping subassembly on the negative pole probe module, negative pole probe module centre gripping is between base and negative pole fixed plate, every the below at the negative pole fixed plate is all fixed respectively through the bolt to the negative pole centre gripping subassembly.

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